Biosynthesis of amphotericin derivatives lacking exocyclic carboxyl groups

被引:94
作者
Carmody, M
Murphy, B
Byrne, B
Power, P
Rai, D
Rawlings, B
Caffrey, P [1 ]
机构
[1] Univ Coll Dublin, Conway Inst Biomol & Biomed Res, Ctr Synth & Chem Biol, Dept Ind Microbiol, Dublin 4, Ireland
[2] Univ Coll Dublin, Conway Inst Biomol & Biomed Res, Ctr Synth & Chem Biol, Dept Chem, Dublin 4, Ireland
[3] Univ Leicester, Dept Chem, Leicester LE1 7RH, Leics, England
来源
JOURNAL OF BIOLOGICAL CHEMISTRY | 2005年 / 280卷 / 41期
关键词
D O I
10.1074/jbc.M506689200
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Amphotericin B is a medically important antifungal antibiotic that is also active against human immunodeficiency virus, Leishmania parasites, and prion diseases. The therapeutic use of amphotericin B is restricted by severe side effects that can be moderated by liposomal formulation or structural alteration. Chemical modification has shown that suppression of charge on the exocyclic carboxyl group of amphotericin B substantially reduces toxicity. We report targeted deletions of the amphN cytochrome P450 gene from the chromosome of the amphotericin-producing bacterium Streptomyces nodosus. The mutant strains produced amphotericin analogues in which methyl groups replace the exocyclic carboxyl groups. These compounds retained antifungal activity and had reduced hemolytic activity.
引用
收藏
页码:34420 / 34426
页数:7
相关论文
共 28 条
[1]   A complex multienzyme system encoded by five polyketide synthase genes is involved in the biosynthesis of the 26-membered polyene macrolide pimaricin in Streptomyces natalensis [J].
Aparicio, JF ;
Fouces, R ;
Mendes, MV ;
Olivera, N ;
Martín, JF .
CHEMISTRY & BIOLOGY, 2000, 7 (11) :895-905
[2]   Biosynthesis of the polyene antifungal antibiotic nystatin in Streptomyces noursei ATCC 11455:: analysis of the gene cluster and deduction of the biosynthetic pathway [J].
Brautaset, T ;
Sekurova, ON ;
Sletta, H ;
Ellingsen, TE ;
Strom, AR ;
Valla, S ;
Zotchev, SB .
CHEMISTRY & BIOLOGY, 2000, 7 (06) :395-403
[3]   Biosynthesis of deoxyamphotericins and deoxyamphoteronolides by engineered strains of Streptomyces nodosus [J].
Byrne, B ;
Carmody, M ;
Gibson, E ;
Rawlings, B ;
Caffrey, P .
CHEMISTRY & BIOLOGY, 2003, 10 (12) :1215-1224
[4]   Amphotericin biosynthesis in Streptomyces nodosus:: deductions from analysis of polyketide synthase and late genes [J].
Caffrey, P ;
Lynch, S ;
Flood, E ;
Finnan, S ;
Oliynyk, M .
CHEMISTRY & BIOLOGY, 2001, 8 (07) :713-723
[5]  
CALDERON M, 1970, J LIPID RES, V11, P167
[6]   The candicidin gene cluster from Streptomyces griseus IMRU 3570 [J].
Campelo, AB ;
Gil, JA .
MICROBIOLOGY-SGM, 2002, 148 :51-59
[7]   Antifungal drug resistance to azoles and polyenes [J].
Canuto, MM ;
Gutierrez, F .
LANCET INFECTIOUS DISEASES, 2002, 2 (09) :550-563
[8]   Analysis and manipulation of amphotericin biosynthetic genes by means of modified phage KC515 transduction techniques [J].
Carmody, M ;
Byrne, B ;
Murphy, B ;
Breen, C ;
Lynch, S ;
Flood, E ;
Finnan, S ;
Caffrey, P .
GENE, 2004, 343 (01) :107-115
[9]   Organizational and mutational analysis of a complete FR-008/candicidin gene cluster encoding a structurally related polyene complex [J].
Chen, S ;
Huang, X ;
Zhou, XF ;
Bai, LQ ;
He, J ;
Jeong, KJ ;
Lee, SY ;
Deng, ZX .
CHEMISTRY & BIOLOGY, 2003, 10 (11) :1065-1076
[10]   QUANTITATIVE STRUCTURE ACTIVITY RELATIONSHIPS IN AMPHOTERICIN-B DERIVATIVES [J].
CHERON, M ;
CYBULSKA, B ;
MAZERSKI, J ;
GRZYBOWSKA, J ;
CZERWINSKI, A ;
BOROWSKI, E .
BIOCHEMICAL PHARMACOLOGY, 1988, 37 (05) :827-836
123